|Publication number||US6668388 B2|
|Application number||US 10/234,804|
|Publication date||Dec 30, 2003|
|Filing date||Sep 4, 2002|
|Priority date||Sep 10, 2001|
|Also published as||EP1290994A2, EP1290994A3, US20030046753|
|Publication number||10234804, 234804, US 6668388 B2, US 6668388B2, US-B2-6668388, US6668388 B2, US6668388B2|
|Original Assignee||Yamamoto Limited|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (10), Referenced by (15), Classifications (16), Legal Events (4)|
|External Links: USPTO, USPTO Assignment, Espacenet|
The problem of urine-emergency borns when someone can not move normally his body and therefore needs an urinal. Up today a lot of solutions exit on the market in order to solve this problem generally focused to avoid the traditional urinal and to be a disposable product.
All these solutions are basically formed by three parts, as shown in FIG. 1:
An unisex plastic conveyer (1),
A storage plastic bag (2),
A pouch (3) filled with an absorbing polymer.
Why these products work badly.
The solderings made on the plastic bag between the two layers and between the bag with the conveyer, being made manually, sometime are not perfect causing a possible dripping.
The difficulty to direct down the bag when the user is bedridden.
The pouch with the absorber polymer being very sensitive to the humidity loses its property very soon specially if stored where the moisture in the air is high.
The reaction time of the polymer is prolonged by the barrier effect of the material used for the pouch, generally paper or non-woven fabric, which, under the influence of the expansion pressure has to be broken into fragments dispensing the polymer, it means time which, in that moments, the user has not.
In case of a recycling, the present disposable urinals have some problems because formed by two different components and the expulsion of the urine become gel is difficult because is amalgamated with the fragments of the pouch. Another aspect to be considered is the production cost.
The present disposable urinals are constructed manually making these operations:
The plastic bag has to be soldered at its top in order to give it an inclination,
The conveyer has to be soldered to the plastic bag,
The pouch (produced on another line) with the polymer has to be inserted into the bag,
The whole product has to be folded and inserted into an another plastic bag, which also has to be soldered.
It is calculated that for these operations, which are totally manual, the required time is more than one minute.
For a disposable product all these costs have to be avoid. Another aspect to be considered as background of this invention is the use of this invented urinal also for incontinence and as substitute of the catheter.
The crux of the present invention is to make a retractable and disposable urinal having the following characteristics:
Easy to handle,
Easy to direct,
Easy to recycle,
Low volume when stored,
No pouch filled with absorbing polymer,
Reaction time of the absorber polymer very fast,
Low production cost.
In order to reach these characteristics the urinal will be made as shown in FIG. 2—FIG. 3—FIG. 4—FIG. 5—FIG. 6, where:
FIG. 1 is a front view of a disposable urinal according to the prior art.
FIG. 2 is a front view of the urinal of the present invention, as in the case of its extension -A-, as in the case of its compression -B- and the cross section of the male (6) and female (14) conveyer.
FIG. 3 shows the joint of the tube (5) with the male conveyer (6).
FIG. 4 shows the operations made by the user for a proper use of the urinal and a special cap (7 b) capsulized into the preformed neck (7 a).
FIG. 5 shows the production of a plurality of caps (7 b) with the process of the vacuum forming and its insertion into the neck.
FIG. 6 shows the action for taking away the compressed tube (5) from the tray
FIG. 7 shows the application of this urinal for incontinents.
As shown in FIG. 2 the tube, whose role is the urine storage, is formed by a plurality of convolutions (8) made with an upper ring (8 a) bigger than the lower ring (8 b) in order to enter easily each other under a compression of the whole tube.
The tube has at its bottom a closed convolution (9) with a bigger diameter. At the opposite side of the tube a hollowed closed neck (7 a) is made whose role is to store and to keep dried the absorber polymer (4), its external ring (11) is close with a plastic film (12) soldered to its edge (13 a).
The tube (5) is produced with the process of the blowing moulding using a mould whose internal figures correspond to its maximum extension FIG. 2A. Being the tube (5) long enough to store a complete miction the polymer, when put inside, falls down at its bottom side. In this case the property of an immediate gelatinizing is reduced because the urine gelatinzes the exposed surface but internally does not work. For this reason, when the process of blowing is made also an essential oil will be blowed inside the tube. With this operation the polymer will adhere around the whole internal surface of the tube and progressively will gelatinize the urine.
Once the tube is produced falls into a assembling line where these operations are made:
Compression of the tube (5),
Inserting of the polymer (4) into the neck (7 a),
Soldering of the film (12) on the edge (13 a) of the neck,
Falling into the final packaging.
The production of this kind of urinal does not forecast any manual operation because made in a proper assembling line and therefore its production cost is very low.
As shown in FIG. 4 instead of the filling of the tubers neck (7 a) with the polymer, a cap (7 b), which is filled with the polymer, can be produced. This cap, once filled with the polymer will be covered by the same film (12) soldering it on its edge (13 b), obviously this cap will be inserted into the neck (7 a) which, in this case, is not closed but totally open.
The FIG. 5 shows how this cap is produced. It can be produced with the process of the injection moulding but this invention forecasts the production with the process of the vacuum forming for the following reasons.
This cap has to be very thin,
It must have a big productivity,
It must have a perforated edge in order to allow a perfect wrench.
The vacuum forming process starts from thiny sheets or from rolls of rigid plastic material (A) the used moulds have a plurality of figures (41), the plastic material is softened by an oven and sucked into the figures, after is cooled by compressed air or by ventilators. In this case a tray incorporating a lot of caps is formed. After this tray passes through a press which perforates the edge of every cap formed into the tray.
The tray so obtained is put in an assembling line where the following operations are made.
(B) The filling of the polymer (4),
(C) The soldering over the whole tray of a plastic film (12), after this soldering,
and in the same station of the line, the edge of every cap is perforated (42),
(D) The insertion of each single neck (7 a) of the extended tube (5) into each single cap (7 b),
(E) The compression of each single tube.
After this operations which are done in a proper assembling line, the tray is full of single urinals compressed into the caps and ready for the use. In other lines the male (6) and female (14) organ conveyers are made. They are produced with the process of injection moulding.
As shown in FIG. 2 both these conveyers have these characteristics:
A specific fitting to the specific organ,
A bottom side which has internally an inclinated tube made like a spout (15),
A top side made with an enlarged edge (16).
How these urinals are used.
a—First application for bedridden patients,
b—Second application for incontinents.
In the first application the male-female conveyer has to be produced with a hard plastic material as polyethylene or polypropylene, in the second one it has to be produced with a soft material as latex or polyurethane or thermoplastic rubber or similar, because incontinents may stand on during the day and can have the urinal adhering to the genital area for some hours.
The tube is the same for both these cases, eventually for standing patients this tube can have a smaller diameter and a bigger length, in order to have a similar volume which is more than 500 milliliter.
For both these applications the use is shown in FIG. 4 where:
Firstly the user takes the conveyer (in the drawing it is shown the male one) in a hand (A) and in the other hand (B) the compressed tube, which, as referred, contains into its neck (7 a) the absorber polymer sealed by a film (12) soldered around its edge (13). After the user inserts the conveyer into the neck.
This insertion is easy because the shape of the inserting tube of the conveyer which has a double arms (20-21) for entering and for holding the edge of the neck, the beginning is facilitated because the bottom side of the conveyer is enlarged (20 a), as shown in FIG. 2.
The spout (15) enters progressively the neck cutting the film (12) and the membrane (10) supporting the absorber polymer and allowing it to fall down the tube (5), this parts (12-10) are partially cut because the shape of the spout and therefore remain in the position as a hinge obtaining the following results: the organ does not touch the polymer because the protection of the film (12) and the urine does not drip out because the barrier effect of the membrane (10) as shown in FIG. 3.
In this case this polymer will work in the best condition being free internally the tube and not incapsulated or fixed into layers of papers or non-wollen fabrics as all the other applications in the market and its reaction time is very fast.
The nature of the absorber polymer can vary and consequently also the reaction time can vary. The most important polymers for this purpose are:
Cellulose-acrylonitrile—Carboxymethylated polysaccharide acrylonitrile and in general all the by-products of the polyacrilic acid and of the polyacrilonitrile
Also a natural component can be used for gelatinizing the urine: the dried and pulverized algas even if, in this case, the reaction time is prolonged.
The second application of this invention, as shown in FIG. 6, is the use of this urinal for incontinence.
The present invention can solve this problem because is essentially a retractable tube which can enter the hole (31) formed on the device (30) properly made for this purpose and its use is quite simple. Basically it is a suspensory bandage formed by a front part (32), which is in contact with the belly, and by three belts: the lower ones, right (33 a) and left (33 b), wind round the corresponding legs, the upper one (34 a) winds round the waist.
Once the tube (5) of the invented urinal is inserted into the hole (31) and is directed down along the legs, is kept in the right position because the male or the female conveyer and their enlarged edge (16) can not pass through the hole and are in the right position for keeping the male or female organs because are pressed by the suspensory belts whose adhering force can be regulated because its closing system.
This closing may be made in two ways.
The first way to fasten the belts is inserting the pins (36), which are sewed or glued to specific points in the front part (32), into one of the holes (35) giving the user the best feeling of tightness.
The second way to fasten the belts is the use of the detachable products known with the commercial names of Velcro or magic tape, also in this case the suspensory has three belts: the lower ones, right (38 a) and left (38 b) wind round the corresponding legs and will be joined to the Velcro (38 c-38 d) and the upper one (37 b) winds round the waist and will be joined to the Velcro (37 a).
This application can be made also wearing normal underpants on which a hole is formed which allows the end of the tube (5) but not the exit of the conveyer. It is clear that in this case the conveyer of male-female organ has not a perfect adhesion as with the suspensory.
For this reason this invention can partially substitute the external catheters and the concerning urine-collecting bags.
Another aspect is to be considered.
The retractable tube (5) being formed by a plurality of convolutions can make a bellows-effect. If the user compresses and leaves the tube, as a pump, when the urinal is in the right position adhering perfectly to the genital area, the tube can suck the urine in those patients suffering of lack of miction, avoiding, in some cases, the use of the bladder catheters.
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|U.S. Classification||4/144.2, 604/349, 4/144.3, D24/122|
|International Classification||A61G9/00, A61F5/449, A61F5/441, A61F5/451|
|Cooperative Classification||A61G9/006, A61F5/441, A61F5/449, A61F5/451|
|European Classification||A61F5/451, A61F5/449, A61G9/00U, A61F5/441|
|Sep 4, 2002||AS||Assignment|
Owner name: YAMAMOTO LIMITED, MALTA
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:BUTTIGIEG, CARMEL;REEL/FRAME:013274/0408
Effective date: 20020829
|Jul 11, 2007||REMI||Maintenance fee reminder mailed|
|Dec 30, 2007||LAPS||Lapse for failure to pay maintenance fees|
|Feb 19, 2008||FP||Expired due to failure to pay maintenance fee|
Effective date: 20071230